RU2141618C1 - Arbalest and gear preparing it for action - Google Patents

Abstract

FIELD: sports equipment. SUBSTANCE: proposed arbalest has frame which front part carries bow whose width and thickness of arms reduces towards ends of arms which carry bow-string. Lever cocking mechanism is hinged to trigger mechanism, side surface of its stopper has flange located under rounded surface of hook of trigger. Frame of trigger mechanism has protrusion positioned under spring-loaded fork. Separable gear including regulators and auxiliary bow-string is used to prepare arbalest for action. Each regulator is made in the form of clamps with through hole in one of them and threaded hole in the other one and screw with head in the form of cylinder having rifled side surface. There is protrusion in the form of hook on surface of one of clamps. After fixing clamps on end sections of arms of bow finishes of auxiliary bow-string are placed on hooks and bow-string is tightened with the aid of trigger mechanism. Then key bow-string is arranged on ends of bow and auxiliary bow-string and clamps of regulators are removed after movement of trigger mechanism to front part of arbalest. EFFECT: increased operational reliability and ergonomic implementation of design. 10 cl, 10 dwg

Description

 The invention relates to sports equipment and hunting equipment, in particular to crossbows, and can be used in crossbows designed for aimed shooting with various arrows, and in devices for preparing a crossbow for action mainly in the field.

 The closest in technical essence to the claimed one is a crossbow containing a body with a handle, in front of which a bow with a bowstring is fixed, and a lever cocking mechanism pivotally connected to a trigger mechanism consisting of a body in which a spring-loaded fork is arranged to interact with a bowstring, a trigger with a hook made with the possibility of interaction with the fork, and a spring-loaded stopper with a rotary handle (see RF patent N 2066038, class F 41 B 5/00, 1996). In the well-known crossbow, the trigger mechanism is made with the possibility of reciprocating movement along the body and is pivotally connected to a lever cocking mechanism containing a crank mounted on an axis located in front of the body, a lever kinematically connected to the middle part of the crank, and a rod, one end of which pivotally connected to the trigger, and the other pivotally connected to the crank.

 A disadvantage of the known crossbow is the insufficiently high operational reliability due to the fact that with repeated use (more than a thousand shots) of the crossbow, the contact surface of the trigger sleeve interacting with the trigger is deteriorated. Upon completion of the start of any boom, the contact surface of the fork hook under the action of a spring impulse acts on the surface of the stopper and a gradual deformation of the surface layer of the material of the fork hook occurs. As a result, the reliability of the clutch of the fork with the trigger hook deteriorates and the safety of using a crossbow is reduced. At the same time, deformation of the surface of the fork hook leads to a decrease in firing accuracy due to a change in the contact conditions with the trigger hook. This necessitates periodic adjustment of the trigger mechanism, which leads to a decrease in ergonomics. In the known crossbow to prevent accidental firing, the trigger mechanism can be equipped with an additional link and several additional springs, which also reduces operational reliability. In addition, in the known crossbow, the bow shoulders have constant width and thickness along the entire length, which necessitates the application of significant efforts when pulling the bowstring, and this leads to a decrease in ergonomics.

 The objective of the invention is to increase the operational reliability of the crossbow while increasing ergonomics.

 The technical result is achieved by the fact that in a crossbow containing a body with a handle, in front of which a bow with a bowstring is fixed, and a lever cocking mechanism pivotally connected to a trigger mechanism consisting of a body in which a spring-loaded fork is arranged for interacting with the bowstring , the trigger with a hook made with the possibility of interaction with the fork, and a spring-loaded stopper with a rotary handle, the side surface of the stopper is made with a shelf located under the hook of the trigger to yuchka, which contacts him at the upper position of the stopper and provides free movement of the hook at the lower position of the stopper, the trigger housing is made with a protrusion placed above the fork, while the lower surface of the protrusion contacts the rear surface of the fork at the initial position of the bow string and is distant from it when pulling the bowstring, and the thickness and width of each shoulder of the bow decreases towards the end of the bowstring; while it is preferable: the stopper and its shelf to perform in the form of a monolithic element; to make a shelf of steel with a shelf thickness of at least 1.5 mm; the trigger hook surface in contact with the stopper shelf is rounded; the end of each shoulder of the bow should be carried out with a protrusion, the width of which is less than the width of the end section adjacent to it, while the loop-shaped end of the bowstring covers the protrusion.

 When using a well-known crossbow, as well as other crossbows of a similar design, a significant problem is the preparation of crossbows for action, in particular the installation of a bowstring on a bow while providing the required pulling force, for example, if the bowstring is damaged. Usually this is done manually and is associated with a number of inconveniences caused by the need to apply significant (more than 50 kgf) forces to bend the onion shoulders while fixing the onion shoulders in a strictly defined position. A device is known that can be used in preparing a crossbow for action, containing string tension regulators mounted on the shoulders of a bow (see ed. St. USSR N 1596204, class F 41 B 5 / 00.1990). In the known device, the regulators are made in the form of flanges with holes distributed around the circumference in which the screws are located. By changing the position of the flanges due to their rotation, followed by fixing the required position with screws, they provide a change in the position of the bow shoulders and, consequently, a change in the string tension.

 A disadvantage of the known device is its low ergonomics, since the process of preparing a crossbow for action requires the use of several operations and auxiliary tools, which complicates the preparation of a crossbow for action, especially in the field. In addition, the known device has insufficient accuracy of regulating the tension of the bowstring, since it is possible only stepwise adjustment of the tension, corresponding to a discrete change in the position of the flanges. After preparation for action, the known device must be left in the crossbow, which leads to an increase in its weight and dimensions and an additional decrease in ergonomics.

 The invention is aimed at improving ergonomics by facilitating the process of tensioning the bowstring.

 The technical result is achieved in a new device for preparing a crossbow for action, containing bowstring tension regulators mounted on the shoulders of the bow, and an auxiliary bowstring, each regulator is removable and consists of two brackets with holes, one of which is threaded, and a screw located in the holes, whose head rests on the surface of one bracket, and the thread is placed in the threaded hole of the other bracket, forming a screw pair with it, while one of the brackets has a hook-shaped protrusion on the outer surface for placing thereon auxiliary closure string, and controls are located near the end portions of the bow shoulders intended to accommodate the ends of the main string; in this case, it is preferable: to orient the plane in which the hooks of the brackets are orthogonal to the crossbow aiming plane; screw heads should be made in the form of cylinders with corrugated side surfaces; the auxiliary bowstring is identical to the main one: place a series of marks on the surfaces of the end sections of the onion shoulders, placing them orthogonally to the sides of the onion shoulders in accordance with the different staple placement zones.

 In the claimed crossbow, the release of the trigger stopper with a shelf on the side surface when placing the shelf under the trigger hook allows you to securely lock the trigger and the fork that is engaged with it after the lower surface of the trigger hook rests on the upper surface of the trigger stopper fixed in this position. This helps to prevent the occurrence of an accidental descent even if the shooter's hand hits the inside of the trigger. This ensures an increase in the operational reliability of the crossbow. The execution of the lower surface of the trigger hook rounded provides a smooth transition when contacting the hook and the shelf, which increases the stability of kinematic connections in the trigger mechanism and a corresponding increase in reliability. The implementation of the stopper with a shelf in the form of a monolithic element provides an increase in the mechanical strength of the connection between the shelf and the stopper in comparison with cases of mechanical or welded joints. It is preferable to make the shelf from steel, for example, from steel of the steel grade 45, U8, U9, etc., since this provides sufficient mechanical strength at a low cost. The thickness of the shelf should be chosen at least 1.5 mm, since this is achieved even with a cantilever arrangement of the interaction zone of the trigger hook with the shelf, high strength with multiple (tens of thousands of descents) their interaction. The execution of the trigger mechanism with a protrusion located above the fork, allows to prevent multiple pulsed loads on the material of the hook of the fork that occur in the known crossbow, since the claimed crossbow completely eliminates the interaction of the hook of the fork with the stopper. Upon completion of the launch of the boom in the claimed crossbow, the fork under the action of the spring rotates and its rear surface rests on the lower surface of the protrusion of the trigger housing. In this case, the fork rotates by a slight angle, which ensures that the contact between the hook of the fork and the hook of the trigger is broken, and therefore it is possible to prevent contact of the hook of the fork with the side surface of the stopper. Thereby, a further increase in operational reliability is achieved. The implementation of the bow of the bow with a thickness and width, decreasing towards the ends of the bowstring, provides a significant reduction in the total load required to tension the bowstring in comparison with the known crossbow, which has constant thickness and width of the shoulders along their entire length. Thus, an increase in ergonomics of the claimed crossbow is achieved. In addition, reducing the width and thickness of each bow of the bow towards the end of the bowstring allows you to increase the speed of departure of the arrow, which also contributes to increased ergonomics by facilitating aiming. Preferably, the end of each bow of the bow is performed with a protrusion, making it with a width less than the width of the end section adjacent to the protrusion, since this creates a simple element for fixing the loop-shaped end of the bowstring in the transition zone from the protrusion to the end section. At the same time, the process of fixing the loop-shaped ends of the bowstring on the shoulder protrusions is greatly simplified, which helps to increase ergonomics.

 At the same time, such a performance of the ends of the bow shoulders, which at the same time perform the functions of the bowstring retainers on the bow, facilitates the most convenient use of the claimed device for preparing the crossbow for action on the crossbow of the claimed design. In the claimed device for preparing a crossbow for action, when creating the required tension force of the main bowstring on the bow, removable ones are used, i.e. elements removed at the end of the preparation process, made in the form of an auxiliary bowstring and auxiliary regulators, fixed in the process of preparation near the end sections of the onion shoulders, designed to place the main bowstring at the final stage of preparation. Each regulator is made in the form of two brackets with holes, one of which is threaded, and a screw located in the holes, the screw head resting on the surface of one bracket, and the thread placed in the threaded hole of the other bracket, forming a screw pair with it. Thus, the regulator is a fixed element with an adjustable distance between the surfaces of opposite brackets, pressed by a screw to the surfaces of the onion shoulder on which these brackets are located. On the side surface of one of the staples of the regulator there is a protrusion in the form of a hook for placing on it the end of the auxiliary bowstring. This embodiment of the device allows, after fixing the regulators on the shoulders of the bow and placing on the hooks the ends of the auxiliary bowstring, carry out its tension by moving the trigger and then placing the ends of the main bowstring on the protrusions of the bow. After the auxiliary bowstring returns to its original position, it is removed and the brackets are removed by disconnecting the screw pairs. Thus, it is possible to simplify the process of preparing a crossbow for action, which provides increased ergonomics of the device. The execution of the screw heads in the form of cylinders with grooved surfaces facilitates the process of fixing the brackets on the surfaces of the onion shoulders and the process of removing the regulators after preparing the crossbow for action. The implementation of the auxiliary bowstring is identical to the main bowstring allows you to ensure the best approximation to the required tension of the main bowstring, since when pulling the auxiliary bowstring, the bow bends by almost the same amount as when pulling the main bowstring. Placement on the surfaces of the end sections of a series of marks, for example, strips of paint arranged orthogonally to the sides of the shoulders and corresponding to different zones placing brackets, facilitates the orientation of the hooks in the desired plane. At the same time, taking into account the preliminary calibration tests, the brackets are placed at the corresponding marks, which ensures the tension of the main bowstring with the required effort.

 The attached drawings depict: FIG. 1 is a general view of a crossbow (side view), FIG. 2 - crossbow trigger (cross section), FIG. 3 - contact zone of the trigger hook with the stopper shelf, FIG. 4 - a bracket of a regulator with a smooth-walled hole; FIG. 5 - a regulator bracket with a threaded hole, FIG. 6 - regulator screw; FIG. 7 - end portion of the onion shoulder, FIG. 8, FIG. 9 and FIG. 10 - the relative position of the bowstring and bow in the process of preparing a crossbow for action.

 The crossbow contains: a body 1 with a handle 2, in front of which a bow 3 with a bowstring 4, a front sight 5, a rear sight 6, a lever mechanism 7, which is pivotally connected to a trigger 8 including a trigger 9, a housing 10, a stopper 11 with a shelf, are placed 12 on its side surface, a spring 13 and a rotary handle 14, a plug 15 with a spring 16, while the trigger housing is made with a protrusion 17, the trigger has an adjustment screw 18, a spring 19 and a hook 20 made with a rounded bottom surface 21; the plug is hooked 22; in addition, the crossbow has a removable device for preparing it for action, containing two controllers, each of which includes staples 23, 24 with a smooth-walled hole 25 in one of them and a threaded hole 26 in the other, while on the outer surface of one of the brackets there is a protrusion 27 made in the form of a hook, and a screw 28 with a cylinder head 29 having a corrugated side surface at one end and a thread 30 at the other end, and an auxiliary string 31, while preferably on the surfaces of the end sections of the onion shoulders will be placed l series of marks 32, located orthogonal to the sides of the shoulders of the bow, which are preferably performed with the protrusions 33 to place on them the loop-shaped ends of the bowstring 4.

 The crossbow housing 1 is preferably made of steel, for example, steel grades st.45, U8, U9, etc. and perform with a groove for moving the trigger 8. The lever mechanism of the platoon 7 in the claimed crossbow is performed similarly to the same mechanism in the device selected as the prototype. Bow 3 is preferably made up of individual shoulders placed in the corresponding grooves of the body bracket and fixed with screws (not shown in the drawings), which reduces the dimensions of the crossbow during its transportation and eliminates the mutual influence of the bow shoulders 3 when preparing the crossbow for action. Each shoulder of the bow 3 is made with a thickness and a width decreasing in the direction from the base of the shoulder to the end (possibly part of the length of the shoulder) (see Fig. 7), which reduces the amount of effort spent on the string. The end of the onion shoulder is preferably made in the form of a protrusion 33, the width of which is less than the width of the adjacent end portion used to accommodate the loop-shaped end of the bowstring 4 (see Fig. 7). Thus, the stepwise transition of the end portion to the protrusion 33 serves as an element for fixing the end of the bowstring 4. The ends of the protrusions 33 are preferably rounded. On the surface of the end sections of the shoulders of the bow 3, it is preferable to apply a series of marks 32, for example, by applying strips of paint or using laser technology. Preferably, the string 4 and the auxiliary string 31 are made of elastic materials such as "ARMOS", "TERLON" and the like, the end of each string is made in the form of a loop, and the central section of the string 4 interacting with the crossbow during operation is covered with a coil of cotton or lavsan yarn, which increases the wear resistance of the material of the bowstring 4. The plug 15 on the front surface has a recess for accommodating the bowstring, in the lower part there is a hook 22 for contact with the hook 20 of the trigger 9 (see Fig. 3) and the rear surface performed in the form of a bevel, which can interact with the corresponding bevel of the protrusion 17 of the housing 10 of the trigger mechanism (see figure 2). The trigger stop 11 is preferably made of steel, for example, steel grades of art. 45, 30HGSA, etc. and perform it in the form of a monolithic element with a shelf 12, the thickness of which should be performed at least 1.5 mm The stopper 11 is made with a spring 13 and a rotary handle 14, allowing the shelf 12 to be moved a distance S (see FIG. 2) from a position in which it is in contact with the trigger hook 20 to a position in which the hook is able to move down freely .

 The removable device used in the inventive crossbow to prepare it for action is made in the form of two removable controllers placed on the ends of the shoulders of the bow 3, and removed after preparing the crossbow for the action of the auxiliary string 31, which is similar to the main string 4 (material, diameter and t .P.). Each regulator includes two brackets 23, 24 (see Fig. 4 and Fig. 5) and a screw 28 (see Fig. 7), which forms a screw pair with one of the brackets. On the outer surface of one of the brackets in each regulator there is a protrusion 27 in the form of a hook, which serves to accommodate the end of the auxiliary string 31 on it (see Fig. 7).

The crossbow is used as follows. Previously, in arbitrary conditions, for example, in the field, without the use of sophisticated additional equipment, the crossbow is prepared for action quickly, including the replacement of a damaged main bowstring. On each shoulder of the bow 3 at an appropriate distance from the center of the bow using marks 32, the staples 23, 24 of the regulator are placed, orienting their faces orthogonally to the sides of the shoulders of the bow 3 and fixing in these positions with screw 28. The hooks 27 of the staples are located orthogonal to the aiming plane crossbow, turning them outward and placing them above the surface of the bow 3 from the side of the main bowstring 4. On the hooks 27 are placed the loop-shaped ends of the auxiliary bowstring 31 (see Fig. 8), which at the same time is free without interference a. Then, through the reciprocating movement of the trigger mechanism 8, which is moved using the lever mechanism of the cocking 7, the auxiliary bowstring 31 is retracted (see Fig. 9), bending the shoulders of the bow 3 to a position at which the distance between the ends of the shoulders of the bow - L ₁ will be less than the length of the main bowstring - L _H , which allows you to freely place the end of the main bowstring 4 on the protrusions 33 of the shoulders of the bow (see figure 7). Then, using the trigger 8, the auxiliary bowstring 31 together with the main bowstring 4 returns to its original position, while the main bowstring 4 is stretched, leaving the bow of the bow in a bent position. The endings of the auxiliary bowstring 31 are then freely removed from the hooks 27, since the length of the auxiliary bowstring in this position will exceed the length of the stretched main bowstring (see Fig. 10). The screws 28 are loosened using the heads 29, and the brackets 23 are loosely removed from the shoulders of the bow 3. Thus, the crossbow is completely ready for use.

 When using a crossbow, the trigger 8 is initially moved using the lever mechanism of the platoon 7 to the forward position until the bowstring 4 is engaged with the fork 15. Then the trigger 8 is moved back to its original position by the backward movement of the lever mechanism of the platoon 7, and the bowstring 4 pulls the bow 3. The rotary handle 14 of the trigger mechanism is moved to the lower position, providing contact of the trigger hook 20 with the stopper shelf 41, which completely eliminates the possibility of accidental descent. After installing the boom (not shown in the drawings), the rotary knob 14 of the stopper is moved to a horizontal position, while the shelf 12 completely releases the hook 20 of the trigger. After bringing the front sight 5 and the rear sight 6 to the selected object, press the trigger 9 and the fork 15, turning under the action of the spring 16, releases the string 4. Upon completion of the launch of the boom, the fork 15 continues to turn until the back surface of the protrusion touches the lower surface of the protrusion 17 of the trigger housing 10 mechanism.

 In comparison with the known declared crossbow has a significantly higher operational reliability. At the enterprise (T.O.P. Peach, Moscow), prototypes of the claimed crossbow and the claimed device for preparing it for action were made. Field tests of prototypes of the claimed crossbow showed that its service life (the number of shots while maintaining parameters) is more than 5 times the service life of a known crossbow. The ergonomics of the crossbow increased due to the convenience of pulling the bowstring and facilitating aiming. The use of the claimed removable compact device for preparing a crossbow for action made it possible to extremely simplify and facilitate the process of tensioning the bowstring and to quickly replace the damaged bowstring. The process of preparing a crossbow for action when using the claimed device takes no more than two minutes and consists of simple operations that do not require the use of any additional equipment, while using the design features of the claimed crossbow.

Claims (10)

 1. Arbalest comprising a body with a handle, in front of which a bow with a bowstring is fixed, and a platoon lever mechanism pivotally connected to a trigger mechanism consisting of a body in which a spring-loaded fork is arranged for engaging with the bowstring, a trigger with a hook made with the possibility of interaction with the fork, and a spring-loaded stopper with a rotary handle, characterized in that the lateral surface of the stopper is made with a shelf located under the trigger hook, which contacts steers with it at the upper position of the stopper and provides free movement of the hook at the lower position of the stopper, the trigger mechanism housing is made with a protrusion placed above the fork, while the lower surface of the protrusion contacts the rear surface of the fork at the initial position of the bow string and is distant from it when the bow string is pulled and the thickness and width of each shoulder of the bow decreases towards the end of the bowstring.  2. The crossbow according to claim 1, characterized in that the stopper and its shelf are made in the form of a monolithic element.  3. Crossbow according to paragraphs. 1 and 2, characterized in that the shelf is made of steel, while the thickness of the shelf is at least 1.5 mm.  4. The crossbow according to claim 1, characterized in that the lower surface of the trigger hook in contact with the stopper shelf is rounded.  5. The crossbow according to claim 1, characterized in that the end of each shoulder of the bow is made with a protrusion, the width of which is less than the width of the adjacent end portion, while the loop-shaped end of the bowstring covers the protrusion.  6. The device for preparing a crossbow according to claim 1 to the action, comprising bowstring tension regulators mounted on the shoulders of the bow, characterized in that an auxiliary bowstring is inserted into it, each regulator is removable and consists of two staples with holes, one of which is threaded and a screw located in the holes, the head of which rests on the surface of one bracket, and the thread is placed in the threaded hole of the other bracket, forming a screw pair with it, while one of the brackets has a protrusion in the shape of a cr yuka to place on it the endings of the auxiliary bowstring, and the regulators are located near the end sections of the bow shoulders, designed to accommodate the endings of the main bowstring.  7. The device according to claim 6, characterized in that the plane in which the hooks of the brackets are located is oriented orthogonally to the crossbow’s aiming plane.  8. The device according to claim 6, characterized in that the screw heads are made in the form of cylinders with corrugated side surfaces.  9. The device according to claim 6, characterized in that the auxiliary bowstring is identical to the main bowstring.  10. The device according to claim 6, characterized in that on the surface of the end sections of the onion shoulders are marked with a series of marks located orthogonal to the faces of the onion shoulders, in accordance with different areas of the staples.

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